一例性反转畸形SRY基因片段的扩增,克隆和核苷酸序列分析

在哺乳动物中,位于Ｙ染色体上的指导雄性性别分化的基因被命名为睾丸决定因子（Ｔｅｓｔｉｓ－ｄｅｔｅｒｍｉｎｉｎｇ ｆａｃｔｏｒ,ＴＤＦ）．１９９０年６月分离获得的ＳＲＹ基因（Ｓｅｘ－ｄｅｔｅｒ－ｍｉｎｉｎｇ ｒｅｇｉｏｎ ｏｆ ｔｈｅ Ｙ）被认为是ＴＤＦ基因最好的侯选者「１－４」,ＳＲＹ基因为单拷贝,位于Ｙ染色体短臂末端１Ａ１Ａ区,靠近假常染色体配对区（ＰＡＰＲ）的交界处,其部分顺序编码８０个保守性     

46,XY女性性反转患者SRY基因启动子区一个新的点突变及其功能分析

通过ＤＮＡ序列测定在一名４６,ＸＹ女性性反转患者ＳＲＹ基因启动子区发现了一个新的突变：ｎｔ．－８１Ｇ→Ａ．该突变不见于正常男性,因此不是ＤＮＡ多态性．为了检测这一点突变对ＳＲＹ基因表达功能的影响,构建了分别由正常或突变的人ＳＲＹ基因启动子区片段调控氯霉素乙酰转移酶（ＣＡＴ）报告基因表达的两个质粒,寡核苷酸探针杂交证实该启动子片段正常或携带有Ｇ→Ａ突变．这两个质粒分别与ｐＳＶ－β－半乳糖苷酶内对照质粒共转染ＨｅＬａ细胞后,瞬间表达分析显示这一突变对ＣＡＴ酶活性水平无显著影响（０．５０＞Ｐ＞０．２０）．上述正常和突变的ＳＲＹ基因启动子片段与Ｋ５６２细胞核抽提物的凝胶阻滞实验也表明,突变对Ｋ５６２细胞核蛋白与ＳＲＹ基因启动子区的结合影响不大．研究ＳＲＹ基因的表达调控对阐明人的性别决定机制及性反转的病理机制具有重要意义     

哺乳动物性别分化的调控

哺乳动物性别分化调控的分子机制的研究特别是性别分化的层次调控、剂量补偿和性染色体进化这三个领域,已取得快速进展。已经发现Ｙ染色体性别决定区基因（ＳＲＹ）、Ｘ染色体ＤＳＳ－ＡＨＣ决定区基因１（ＤＡＸ－１）、甾类生成因子１基因（ＳＦ１）和Ｗｉｌｍｓ瘤抑制基因（ＷＴ－１）等与哺乳动物性别决定有关。ＳＲＹ启动睾丸分化,但胚胎发育成雄性的其余步骤由睾丸分泌的激素控制。ＤＡＸ－１编码一种女性特异功能的蛋白质,     

哺乳动物性别分化的调控

哺乳动物性别分化调控的分子机制的研究特别是性别分化的层次调控、剂量补偿和性染色体进化这三个领域,已取得快速进展。已经发现Ｙ染色体性别决定区基因（ＳＲＹ）、Ｘ染色体ＤＳＳ－ＡＨＣ决定区基因１（ＤＡＸ－１）、甾类生成因子１基因（ＳＦ１）和Ｗｉｌｍｓ瘤抑制基因（ＷＴ－１）等与哺乳动物性别决定有关。ＳＲＹ启动睾丸分化,但胚胎发育成雄性的其余步骤由事丸分泌的激素控制。ＤＡＸ－１且编码一种女性特异功能的蛋白质,它在男性中被ＳＲＹ所抑制。ＳＦ－１和ＷＴ－１在ＳＲＹ开启之前作用于性腺和肾上腺发育的启动。哺乳动物通过随机失活雌性两条Ｘ染色体中的一条来使Ｘ连锁的基因在两性间的表达水平达到平衡（剂量补偿）。Ｘ染色体失活由Ｘ染色体失活中心（ＸＩＣ）控制。失活的Ｘ染色体专一转录基因（ＸＩＳＴ）是ＸＩＣ的强烈候选者,它可能参与Ｘ失活的启动。对有袋目和单孔目动物性染色体的研究为我们提供了其进化的信息。有证据支持性染色体起源于一对同源常染色体,而ＳＲＹ的祖先基因可能是ＳＯＸ－３。     

46,XY女性性反转患者SRY基因启动子区一个新的点突变及其功能分析

通过ＤＮＡ序列测定在一名４６,ＸＹ女性反转患ＳＲＹ基因启动子区发现了一个新的突变：ｎｔ－８１Ｇ－Ａ。该突变不见于正常男性,因此不是ＤＮＡ多态性。为了检测这一点突变对ＳＲＹ基因表达功能的影响,构建了分别由正常或突变的人ＳＲＹ基因启动子区片段调控氯霉素乙酰转移酶报告基因表达的两个质粒,寡核苷酸探针杂交证实该启动子片段正常或携带有Ｇ－Ａ突变。     

优化mRNA翻译起始区提高人粒－巨噬细胞集落刺激因子在E．coli中的表达

人粒－巨噬细胞集落刺激因子（ｈＧＭ－ＣＳＦ）是一种重要的造血生长因子．利用基因重组技术构建两个ｈＧＭ－ＣＳＦ的Ｅ．ｃｏｌｉ表达菌株,一个为在不改变氨基酸顺序的前提下,对ｍＲＮＡ翻译起始区核苷酸顺序进行优化突变（ｈＧＭ－ＣＳＦ（Ｍ））,另一个为未突变的对照（ｈＧＭ－ＣＳＦ（Ｎ））．经酶切电泳、ＤＮＡ测序、ＳＤＳ－ＰＡＧＥ和Ｗｅｓｔｅｒｎｂｌｏｔ等分析鉴定,证明两者均能表达特异性的１４．６ｋＤｈＧＭ－ＣＳＦ,但ｈＧＭ－ＣＳＦ（Ｍ）的表达水平较ｈＧＭ－ＣＳＦ（Ｎ）提高了１．２６倍,占菌体总蛋白的１６．９％．ｍＲＮＡ翻译起始区二级结构预测分析表明,优化突变后生成自由能ΔＧ从原来的－１０．２提高至－９．４Ｋｃａｌ,ＡＵＧ从部分配对状态变为非配对状态．     

优化mRNA翻译起始区提高人粒—巨噬细胞集落刺激因子在E.coli…

人粒－巨噬细胞集落刺激因子（ｈＧＭ－ＣＳＦ）是一种重要的造血生长因子。利用基因重组技术构建两个ｈＧＭ－ＣＳＦ的Ｅ．ｃｏｌｉ表达菌株,一个为在不改变氨基酸顺序的前提下,对ｍＲＮＡ翻译起始区核苷酸顺序进行优化突变（ｈＧＭ－ＣＳＦ（Ｍ））,另一个为未突变的对照（ｈＧＭ－ＣＳＦ（Ｎ））。经酶切电泳、ＤＮＡ测序、ＳＤＳ－ＰＡＧＥ和Ｗｅｓｔｅｒｎ ｂｌｏｔ等未突变的对照（ｈＧＭ－ＣＳＦ（Ｎ））。经酶切电泳、Ｄ     

贵州疣螈的核型和C-带研究

贵州疣螈的核型和Ｃ－带研究ＡＳＴＵＤＹＯＮＫＡＲＹＯＴＹＰＥＳＡＮＤＣ－ＢＡＮＤＩＮＧＳＯＦＴｙｌｏｔｏｔｒｉｔｏｎｋｗｅｉｃｈｏｗｅｎｓｉｓ关键词贵州疣螈,核型,ＺＷ－染色体,Ｃ－带ＫｅｙｗｏｒｄｓＴｙｌｏｔｏｔｒｉｔｏｎｋｗｅｉｃｈｏｗｅｎｓｉｓ...     

大熊猫SRY基因的PCR扩增和克隆

本文采用人ＳＲＹ基因的一对引物,通过ＰＣＲ扩增获得了雄性大熊猫ＳＲＹ基因片段。表明大熊猫存在与人ＳＲＹ基因同源的相应基因,将ＰＣＲ产物与载体ｐＵＣ－Ｅｃｏ－Ｔ连接后,用以转化ＪＭ１０９菌,经过与人ＳＲＹ基因探针菌落杂交筛选获得了大熊猫ＳＲＹ苈在克隆,命名为ｐＡＭＹ０．６,其插入片段为相应于人ＳＲＹ基因保守区在内的一段约６０９ｂｐＤＮＡ。此外,还制作和比较分析了人和大熊猫基因片段的限制酶图谱。     

SRY和SRY盒基因比较树

性别决定区Ｙ（ＳＲＹ）基因是人类和哺乳动物睾丸决定因子（ＴＤＦ）的最佳候选基因。本文基于ＳＲＹ／Ｓｒｙ和ＳＲＹ盒基因保守区氨基酸序列相似性,采用聚类分析方法,将该基因家族聚类为四个亚族,即ＳＯＸＳ１,ＳＯＸＳ２,ＳＯＸＳ３和ＳＯＸＳ４,各亚族间同源性小于６０％。所有哺乳动物和人类ＳＲＹ／Ｓｒｙ都聚在ＳＯＸＳ１亚族内。该亚族由ＳＯＸＳ１１和ＳＯＸＳ１２两组组成,真兽亚纲哺乳动物和人类ＳＲＹ／Ｓｒｙ基因都集中在ＳＯＸＳ１２组内。     

中国人SRY基因的分离、克隆和核苷酸序列分析

睾丸决定因子基因(Testis-determining factor,TDF)位于Y染色体短臂上,它的表达产物诱导睾丸组织的发生。SRY基因(Sex-determining Region of the Y)位于Y染色体的性别决定区内,许多特征显示SRY就是TDF。我们选用与SRY基因相应的引物,用PCR技术对正常人男女各10例的基因组DNA进行扩增。将特异扩增的男性SRY基因片段重组到质粒PUC12中,得到含有中国人SRY基因片段的克隆,命名为PSY-1、PSY-2。用[~(32)p]标记重组质粒中的SRY基因片段作探针,与PCR结果进行Southern杂交,男性样品均显示特异杂交带,女性样品为阴性。用末端终止法测定克隆的SRY基因片段的全部核苷酸序列为299bp,含有SRY基因中高度保守及功能特异性区域的240bp,我们对此进行了讨论。     

Familial case with sequence variant in the testis-determining region associated with two sex phenotypes.

The human Y chromosome encodes a testis-determining factor (TDF) which is responsible for initiating male sex determination. Recently a region of the Y chromosome (SRY) was identified as part of the TDF gene. We have identified a three-generation family (N) in which all XY individuals have a single base-pair substitution resulting in a conservative amino acid change in the conserved domain of the SRY open reading frame. Three individuals are XY sex-reversed females, and two are XY males. Several models are proposed to explain association between a sequence variant in SRY and two sex phenotypes.     

Gene SRY et anomalies de la determination genetique du sexe chez l’homme

Normal sexual development in man is the consequence of a complex process. This review focuses on the translation of genedal sex (XX or XY karyotype) into gonadal sex (testis or ovary). During the last three years attempts to identify and clone the testis determining factor (TDF) have exploited detailed maps of the Y chromosome established by geneticists over the last decade. A candidate gene, named SRY (sex determining region, Y) located at the tip of the short arm of the Y chromosome, shows many characteristics in common with TDF in that it is the sole element of the Y chromosome required for male development. The discovery of TDF led us to analyse sex-reversed individuals, i.e. XX males and XY females, with the aim of constructing a model for the processes regulating the development of an organ as complex as the testis. This SRY gene is now the subject of intense molecular biological effort by various groups, effort which we hope will elucidate the mechanism(s) of sex determination.     

46,XY女性性反转患者SRY基因的两个新突变类型

Y染色体上的性别决定区域——SRY基因作为睾丸决定因子,可以调控男性性别发育过程。SRY基因是一种转录因子,属于带有高迁移率族蛋白家族,该家族成员包含能与DNA结合的HMG盒基序。已知SRY基因的缺失和点突变是造成XY女性性反转的病因之一。通过筛查10位中国46,XY女性性反转病人SRY基因的开放阅读框区域,探寻新的突变类型。用标准方法从外周血中抽提gDNA,通过聚合酶链式反应扩增SRY基因中部的609bp的DNA片段。扩增后的PCR片段被克隆到pUCm-T载体中,在ABI377-3自动测序仪上完成测序。运用限制性内切酶酶切分析的方法验证DNA测序的结果。结果表明,在两个患者的SRY基因中分别发现了新的核苷酸点突变,并都导致氨基酸替代。一个突变发生在SRY基因的5’端HMG盒外的核苷酸第113位腺嘌呤(A)被鸟嘌呤(G)取代,并导致谷氨酸被甘氨酸替换;另一个突变是第387位核苷酸发生T被A替换,该突变引起第129位的酪氨酸变成终止密码,她父亲的SRY序列被证明是正常的野生型。通过查询文献和人类基因突变数据库(HGMD),这两个突变都是以前未见报道过的新型SRY基因突变,并使因核苷酸替换引起SRY基因突变总数增加到45。     

The role of the Y-chromosome in sex determination.

The basic plan of gonadal development in both sexes is female unless testes are induced by factor(s) of the Y chromosome, known as testis determining factor(s) (TDF). It is not clearly established whether the Y chromosome control is autonomous or under the control of a gene on the X chromosome or autosomes. A gene for the H-Y antigen (Histocompatibility-Y antigen) has been postulated to be the factor determining testicular differentiation. Recent studies have demonstrated that the gene for testis determination and the H-Y determinant are two separate entities. Although earlier cytogenetic observations localized TDF on the pericentric region of the short arm of the Y chromosome, subsequent findings by high-resolution chromosome banding and molecular analysis localise TDF to the distal part of the short arm of the Y chromosome, adjacent to the pseudoautosomal region. A candidate for TDF, the ZFY, was localised within the 140 kb interval where the position of TDF was defined, and considered as the TDF gene. However, a smaller gene sequence of 35 kb, the SRY, situated outside the 140 kb ZFY region, has recently been isolated and proved to be the only and the smallest part of the Y chromosome necessary for male sex determination.     

The sex-determining region Y (SRY) gene is mapped to p12-p13 of the Y chromosome in pig (Sus scrofa domestica) by in situ hybridization

The sex-determining region Y is a gene located in the distal portion of the short arm of human (SRY) and mouse (Sry) Y chromosomes and considered to be the best candidate for the testis determining factor (TDF/Tdy). The gene is believed to be the key factor in sex differentiation in mammals and is conserved across mammalian species. We report herein that the SRY/Sry gene has been assigned to pi 2-p13 on the short arm of the Y chromosome in pig by in situ hybridization. The result confirms interspecies conservation of this chromosomal segment in the evolution of mammalian chromosomes, and suggests further use of this gene probe in genomic studies in other mammals. The assignment of the Sry gene is the second physical gene mapping data available for the Y chromosome in pigs. Such data can be used in the effort of constructing the pig gene map and for further establishment of a comparison of sex chromosome morphology in different mammalian species concerning sex-specific and pseudoautosomal regions.     

Isolation of a sequence which maps close to the human sex determining gene.

A sequence mapping close to the human sex determining gene (TDF) has been isolated from a lambda library constructed with DNA derived from a chromosome transfectant hybrid cell line. This sequence is shown to be present in the DNA of X-Y interchange males at a very high frequency and, based on these studies, it is categorised with the sequence defined by the probe, GMGY3, as the closest known Y chromosome derived marker to TDF. In contrast to GMGY3, however, this locus shares no homology with any other human chromosome. Southern blot analysis also reveals specific hybridization to the Y chromosome of other primates. It therefore defines, for the first time, a conserved and Y chromosome unique locus that is near to TDF.     

A point mutation,R59G,within the HMG-SRY box in a female 45,X/46,X,psu dic(Y)(pter→q11::q11→pter)

We report a molecular and cytogenetic investigation of a psu dic(Yp) chromosome identified in blood and ovarian tissue from a female with mosaic karyotype 45,X/46,X,+ psu dic(Yp). FISH analysis showed that the psu dic(Yp) has two copies of the short arm, two centromeres and two copies of the proximal long arm. PCR analysis also confirmed the presence of the SRY gene and the Y centromere, and also confirmed the deletion of the Y-heterochromatic region. Because of the possibility of a mutation, a fragment of 609 bp of the SRY gene was sequenced from independent PCR products. The analysis of the sequence indicated the presence of two different copies of the gene: one presented a point mutation, R59G, within the HMG-box; the other had a sequence identical to that already published. Both sequences were found at a proportion of 1:1. The absence of a 46,XY cell line suggests that the rearrangement took place during gametogenesis or during the first division after fertilization. Also, the existence of different sequences of the SRYgene in the same Y chromosome suggests that the formation of the dicentric took place prior to the mutation of the SRY gene. To our knowledge, this is the first time that a mutation has been described in codon 59 within the HMG- SRY box, and also the first case of a psu dic(Yp) chromosome that displays two different copies of the SRY gene.     

True hermaphroditism in a 46,XY individual, caused by a postzygotic somatic point mutation in the male gonadal sex-determining locus (SRY): molecular genetics and histological findings in a sporadic case.

Recently, the gene for the determination of maleness has been identified in the sex-determining region on the short arm of the Y chromosome (SRY) between the Y-chromosomal pseudoautosomal boundary (PABY) and the ZFY gene locus. Experiments with transgenic mice confirmed that SRY is a part of the testis-determining factor (TDF). We describe a sporadic case of a patient with intersexual genitalia and the histological finding of ovotestes in the gonad, which resembles the mixed type of gonadal tissue without primordial follicle structures. The karyotype of the patient was 46,XY. By PCR amplification, we tested for the presence of PABY, SRY, and ZFY by using DNA isolated from peripheral blood leukocytes and for the presence of SRY by using DNA obtained from histological gonadal slices. The SRY products of both DNA preparations were further analyzed by direct sequencing. All three parts of the sex-determining region of the Y chromosome could be amplified from leukocytic DNA. The patient's and the father's SRY sequences were identical with the published sequence. In the SRY PCR product of gonadal DNA, the wild-type and two point mutations were present in the patient's sequence, simulating a heterozygous state of a Y-chromosomal gene: one of the mutations was silent, while the other encoded for a nonconservative amino acid substitution from leucine to histidine. Subcloning procedures showed that the two point mutations always occurred together. The origin of the patient's intersexuality is a postzygotic mutation of the SRY occurring in part of the gonadal tissue. This event caused the loss of the testis-determining function in affected cells.     

Origin and spread of the SRY gene on the X and Y chromosomes of the rodent Microtus cabrerae: role of L1 elements

In the rodent species Microtus cabrerae, males as well as females present several copies of the SRY gene, a single-copy gene located on the Y chromosome in most mammals. Using different PCR approaches, we have characterized the sequence, structure, and organization of the SRY copies and their flanking regions distributed on the X and Y chromosomes of this species. All copies of SRY analyzed, including those from the Y chromosome, proved to be nonfunctional pseudogenes, as they have internal stop codons. In addition, we demonstrated the association of SRY pseudogenes with different fragments of L1 and LTR retroelements in both sex chromosomes of M. cabrerae. Examining the possible origin of SRY pseudogene and retroposons association, we propose that retroposons could have been involved in the mechanism of SRY gene amplification on the Y chromosome and in the transference of the Y-linked SRY copies to the X-chromosome heterochromatin.